I have been working to deploy a relatively large Rails app (Rails 2.3.5) and recently doing some load testing we discovered that the throughput for the site is way below the expected level of traffic.

We were running on a standard 32bit server, 3GB of RAM with Centos, and we were running Ruby Enterprise Edition (latest build), Passenger (Latest build) and Nginx (Latest build) - when there is only one or two users the site runs fine (as you would expect) however when we try to ramp up the load to ~50 concurrent requests it completely dies. (Apache Bench report ~2.3 req/sec, which is terrible)

We are running RPM and trying to determine where the load issue is, but it's pretty evenly distributed across Rails, SQL and Memcached, so we're more or less going through and optimizing the codebase.

Out of sheer desperation we spun up a large EC2 instance (Ubuntu 9.10, 7.5GB RAM, 2 Compute Units/Cores) and setup the same configuration as the original server, and while there are more resources we were still seeing pathetic results.

So, after spending too much time trying to optimize, playing with caching configuration etc I decided to test the throughput of some mongrels, and ta-da, they are performing much much better then Passenger.

Currently the configuration is 15x Mongrels being proxied via Nginx, and we seem to be meeting our load requirements just but it's not quite enough to make me comfortable with going live... What I was wondering is if anyone knows of some possible causes for this...?

My configuration for passenger/nginx was:

  • Nginx workers: tried between 1 and 10, usually three though.
  • Passenger max pool size: 10 - 30 (yes, these numbers are quite high)
  • Passenger global queueing: tried both on and off.
  • NGinx GZip on: yes

It might pay to note that we had increased the nginx max client body size to 200m to allow for large file uploads.

Anyway suggestions would be really appreciated, while the mongrels are working fine it changes how we do things a lot and I would really prefer to use Passenger - besides, wasn't it supposed to make this easier and perform better?

  • 4
    Just fyi here's the explanation: The difference is that mongrels spawn separated instances of your app so each app has its own sql pool while passenger forks new instances out of a single pre-initialized app spawner (which is much much faster) so it shares your sql pool.
    – hurikhan77
    Feb 5 '10 at 7:50
  • Thanks for the explanation - once we tested the changes to the pools (well, once I read the suggestion) it became very very clear to me - as wise people have often said, sometimes you just need another pair of eyes ;) Feb 5 '10 at 11:07
  • You may want to amend your title as this resolved as non-nginx related. It will happen on every passenger deployment if you set the sql pool size too small.
    – hurikhan77
    Feb 8 '10 at 16:26
  • @hurikhan77: Someone from the Phusion team claims pools are not shared amongst apps.
    – twelve17
    Apr 8 '14 at 12:08
  • @twelve17 It may be different now in Passenger4. But usually it goes like this (and that means not shared amongst apps but shared amonst instances of each app): Pool connections get opened, processes forked (open FDs become shared), thus pool is shared with each instance
    – hurikhan77
    Apr 9 '14 at 19:44

Maybe your sql pool size is too small? This essentially limits the parallelism of database workloads in your application which in turn builds up to much increased load as soon as you put work on your app stack...

  • Wow, I can't believe I didn't think of this - we jacked up the pool to a higher number (is there such thing as 'too high'? is 50 too high?) and the difference is amazing. Thanks so much for your suggestion Feb 5 '10 at 0:27
  • You will need no more than your passenger pool size... Maybe give an extra buffer of 4 or 5.
    – hurikhan77
    Feb 5 '10 at 7:44
  • 4
    This depends on your memory size and how much your application uses. It should fullfill something like this: "poolsize * process_size < 80% * ram" and "accesses_per_second * response_time < poolsize", else your server won't fit or your response time would suffer. Keep in mind that this equation does not count mysql (for mysql add 2 mb per app process size + 1 or 2 gb if it runs on the same machine).
    – hurikhan77
    Feb 5 '10 at 17:10
  • 1
    This is the 'pool' parameter in the database.yml we're talking about, right?
    – miccet
    Feb 24 '11 at 15:58
  • 1
    +1 to this just got a speed increase to my app by doubling the pool size to match the passenger max pool size
    – Nick M
    Aug 3 '16 at 12:32

As a first step I would deploy a minimal "Hello World" type Rails application to your environment and see what throughput you get with that. Doing that will at least tell you if your problem is with the environment or somewhere in your application.

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